We present a new technique for on-chip cooling of electrons in a nanostructure: nuclear demagnetisation of on-chip, thin-film copper refrigerant. We are motivated by the potential improvement in the operation of nanoelectronic devices below 10 mK . At these temperatures, weak electron-phonon coupling hinders traditional cooling, yet here gives the advantage of thermal isolation between the environment and the on-chip electrons, enabling cooling significantly below the base temperature of the host lattice. To demonstrate this we electroplate copper onto the metallic islands of a Coulomb blockade thermometer (CBT), and hence provide a direct thermal link between the cooled copper nuclei and the device electrons. The CBT provides primary therm...
We present a parallel network of 16 demagnetization refrigerators mounted on a cryofree dilution ref...
Cooling nanoelectronic structures to millikelvin temperatures presents extreme challenges in maintai...
Nanostructured samples serve as a playground of solid state physics due to their vast diversity of a...
We demonstrate significant cooling of electrons in a nanostructure below 10 mK by demagnetisation of...
This thesis describes a novel cooling technique which allows the electrons within nanoelectronic dev...
Cooling nanoelectronic devices below 10 mK is a great challenge since thermal conductivities become ...
On-chip demagnetization refrigeration has recently emerged as a powerful tool for reaching microkelv...
Cooling of electronic devices below 1 mK is a challenging task, since the thermal coupling with the ...
Cooling nanoelectronic devices below 10 mK is a great challenge since thermal conductivities become ...
Cooling nanoelectronic structures to millikelvin temperatures presents extreme challenges in maintai...
Cooling electrons in a nanoelectronic device to a few milikelvin, and further into the microkelvin r...
The frontiers of quantum electronics have been linked to the discovery of new refrigeration methods ...
We present measurements of nanoelectronic Coulomb Blockade Thermometers that are optimised for opera...
Fragile quantum effects such as single electron charging in quantum dots or macroscopic coherent tun...
Of all parameters, determining the behaviour of a physical system in the laboratory, temperature is ...
We present a parallel network of 16 demagnetization refrigerators mounted on a cryofree dilution ref...
Cooling nanoelectronic structures to millikelvin temperatures presents extreme challenges in maintai...
Nanostructured samples serve as a playground of solid state physics due to their vast diversity of a...
We demonstrate significant cooling of electrons in a nanostructure below 10 mK by demagnetisation of...
This thesis describes a novel cooling technique which allows the electrons within nanoelectronic dev...
Cooling nanoelectronic devices below 10 mK is a great challenge since thermal conductivities become ...
On-chip demagnetization refrigeration has recently emerged as a powerful tool for reaching microkelv...
Cooling of electronic devices below 1 mK is a challenging task, since the thermal coupling with the ...
Cooling nanoelectronic devices below 10 mK is a great challenge since thermal conductivities become ...
Cooling nanoelectronic structures to millikelvin temperatures presents extreme challenges in maintai...
Cooling electrons in a nanoelectronic device to a few milikelvin, and further into the microkelvin r...
The frontiers of quantum electronics have been linked to the discovery of new refrigeration methods ...
We present measurements of nanoelectronic Coulomb Blockade Thermometers that are optimised for opera...
Fragile quantum effects such as single electron charging in quantum dots or macroscopic coherent tun...
Of all parameters, determining the behaviour of a physical system in the laboratory, temperature is ...
We present a parallel network of 16 demagnetization refrigerators mounted on a cryofree dilution ref...
Cooling nanoelectronic structures to millikelvin temperatures presents extreme challenges in maintai...
Nanostructured samples serve as a playground of solid state physics due to their vast diversity of a...